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GASES
Behavior of Gases
Gases behave much differently than liquids and solids and thus, have different laws.
Because gas molecules have no forces keeping them together, they fill whatever container in which they are kept.
This distance between the molecules also means they can be compressed.
Kinetic Molecular Theory of Gases
Model explaining gas behavior.1) A gas consists of small particles (atoms
or molecules) that move randomly with high velocities.
2) The attractive forces between gases can be ignored.
Kinetic Molecular Theory of Gases
3) The actual volume that the gas molecules occupy is usually much smaller than the volume of the container.
- Therefore, gases can be easily compressed because of all the empty space.
4) The average kinetic energy (temperature) of gas molecules is proportional to the Kelvin temperature.
Kinetic Molecular Theory of Gases
5) Gas particles are in constant motion, moving rapidly in straight paths until collide with another gas molecule and change direction.
- When they hit each other or the walls of the container, they create gas pressure.
- As collisions increase, pressure increases.
Properties of Gases
The following properties are used to describe gases: Pressure Volume Temperature Amount of gas
Pressure of a Gas
Pressure of a gas occurs when gas molecules strike each other as well as the sides of a container.
As collisions increase between molecules, pressure increases.
The pressure of the air molecules around us is called atmospheric pressure.
Atmospheric pressure – decreases with altitude because there are fewer air molecules present
Common Units of Pressure
Atmosphere (atm) Millimeters of Mercury (mmHg) Torr (torr) Pounds per square inch (lb/in2 ) Pascal (Pa)
Barometric Pressure -As air pressure increases (downward) the barometer reading (Hg) rises upward.
Volume of a Gas
The volume of a gas equals the size of the container in which the gas is placed.
Volume of gases are generally measured in liters (L) or cubic decimeters (dm3 ) which equal the same amount.
Also, 1mL = 1 cm3
Temperature of a Gas
Temperature reflects the average kinetic energy due to the movement of a gas.
Measured in Kelvin (K)
Amount of a Gas
Uses moles to describe the relative quantity of molecules of a gas that are present.
What happens to the pressure of a gas when volume decreases?
Pressu
re decre
ases
Pressu
re in
creas
es
No ch
ange
Unable to
tell
11%0%
5%
84%
1. Pressure decreases
2. Pressure increases
3. No change4. Unable to tell
What is the relationship between pressure and volume?
Dire
ct
Inverse
Exponential
No re
lationship
19%
0%0%
81%1. Direct2. Inverse3. Exponential4. No relationship
Boyle’s Law
Boyle’s Law – If temperature is held constant, gas pressure is inversely proportional to the volume of the gas.
Boyle’s Law: P1 V1 = P2 V2
What happens to the volume of a gas when temperature increases?
Volume decrease
s
Volume incre
ases
No ch
ange
Unable to
tell
0%10%
67%
24%
1. Volume decreases
2. Volume increases3. No change4. Unable to tell
What is the relationship between temperature and volume?
Dire
ct
Inverse
Exponential
No re
lationship
76%
10%0%
14%
1. Direct2. Inverse3. Exponential4. No relationship
Charles’ Law
As temperature increases, average kinetic energy of gas molecules increases.
As the molecules move faster, volume increases.
Charles’ Law – If pressure is held constant, there is a direct relationship between volume and temperature.
Charles’ Law
V1 = V2
T1 T2
Note: Temperature is measure in Kelvin
Kelvin = Celsius + 273
What happens to the pressure of a gas when temperature increases?
Pressu
re decre
ases
Pressu
re in
creas
es
No ch
ange
Unable to
tell
14%
0%0%
86%
1. Pressure decreases
2. Pressure increases
3. No change4. Unable to tell
What is the relationship between temperature and pressure?
Dire
ct
Inverse
Exponential
No re
lationship
85%
0%5%
10%
1. Direct2. Inverse3. Exponential4. No relationship
Gay – Lussac’s Law
As temperature increases, collisions increase and pressure increases as well.
Gay – Lussac’s Law – If volume is held constant, there is a direct relationship between pressure and temperature.
Gay – Lussac’s Law
P1 = P2
T1 T2
Gay-Lussac’s Law is true if number of moles of the gas as well as the volume is held constant.
Note: Temperature is measure in Kelvin
Kelvin = Celsius + 273
Combined Gas Law
P1 V1 = P2 V2
T1 T2
The combined gas law applies as long as the number of moles of a gas are held constant.
Note: Temperature is measure in Kelvin
Kelvin = Celsius + 273
What happens to the volume of a gas when the number of atoms increases?
Volume decrease
s
Volume incre
ases
No ch
ange
Unable to
tell
0% 0%0%0%
1. Volume decreases
2. Volume increases3. No change4. Unable to tell
What is the relationship between volume and moles of a gas?
Dire
ct
Inverse
Exponential
No re
lationship
0% 0%0%0%
1. Direct2. Inverse3. Exponential4. No relationship
Avogadro’s Law
V1 = V2
n1 n2
Avogadro’s Law is true if pressure and temperature are held constant.
Note: n = moles of the gas
Avogadro’s Law
V1 = V2
n1 n2
The combined gas law applies as long as the number of moles of a gas are held constant.
Note: Temperature is measure in Kelvin
Kelvin = Celsius + 273
STP
STP – Standard Temperature and Pressure
STP: T = 273K (or 0o C)
P = 1 atm or 760 mmHg
Molar Volume
***** At STP, according to Avogadro, any gas has a molar volume of 22.4L.
Conversion factor: 1 mole (of any gas) = 22.4L
Law of Partial Pressures
The Law of Partial Pressures states that the total pressure of a gas is equal to the sum of all of the individual pressures.
Ptot = P1 + P2 + … Pn
True or False: Increasing the volume of a gas increases the pressure.
True
False
0%0%
1. True2. False
True or False: Increasing the pressure of a gas increases the temperature.
True
False
0%0%
1. True2. False
True or False: 1 mole of iron metal has a volume of 22.4L at STP.
True
False
0%0%
1. True2. False
True or False: Decreasing the temperature of a gas increases the pressure.
True
False
0%0%
1. True2. False
True or False: Decreasing the temperature of a gas increases the volume.
True
False
0%0%
1. True2. False
True or False: Increasing the moles of a gas increases the pressure.
True
False
0%0%
1. True2. False
Ideal Gas Law
The four properties of gases (temperature, pressure, volume, and amount) can be combined to give the Ideal Gas Law
PV = nRT
***Use the ideal gas law when you know 3 out of the 4 properties of a given gas.
PV = nRT
R is a constant. To calculate R, put all other variables at STP and solve for R.
P = 1 atm or 760 mmHgT = 273KN = 1 moleV = 22.4L
R = 0.0821 if P is in atm; 62.4 if P is in mmHg